Competition of viral and satellite RNAs of cucumber mosaic virus for replication in vitro by viral RNA-dependent RNA polymerase

Abstract

Cucumber mosaic virus (CMV) satellite RNA-induced viral symptom modulation is usually accompanied by a significant reduction of virus accumulation in plant tissue, which has led to the hypothesis that satellite RNA competes with the viral RNAs for replication by the viral replicase and thereby reduces viral RNA synthesis and viral symptoms. In this report, the RNA synthesis of the viral and satellite RNAs of CMV was studied in vitro using an RNA-dependent RNA polymerase (RdRp) purified from CMV-infected plants. Comparison of the kinetics of the CMV RdRp-catalysed RNA synthesis using as templates viral RNAs and satellite RNA, alone or in an appropriate mixture, showed that these RNAs competed with each other for RNA synthesis by the CMV RdRp. Determination of the rates of 32P incorporation into the viral and satellite double-stranded RNA products revealed an apparent replication advantage of the satellite RNA over viral RNAs. The results provide strong support for a previously proposed biochemical mechanism that attributes CMV satellite-induced viral symptom modulation to the replication competition between the satellite and viral RNAs.